RU2257682C2 - Multi-functional door buzzer device - Google Patents

Abstract

FIELD: secure locking equipment for doors of multi-flat houses.

SUBSTANCE: device is an element of integrated multi-functional control system within intellectual building concept.

EFFECT: higher reliability, broader functional capabilities, simplified construction, higher durability.

17 cl, 2 dwg

Description

The invention relates to equipment for public utilities residential apartment buildings and industrial premises, and in particular to systems of electrical communications and communications in residential buildings and industrial premises, in particular to intercom systems - audio intercoms.

Known intercom "Impulse DS" containing a control unit comprising a microcontroller with a key device, sound modules, code memory, control units for the line and the lock device, a power supply, a lock device, floor switches with subscriber units or intercoms via the line, consisting of four wires connecting to the control unit, to which the door sensor and the alarm sensor are additionally connected, the subscriber units are connected to the floor switches by means of ordinate communication line, consisting of lines of tens and lines of units [1].

The disadvantages of this on-door speakerphone are low functionality, although a security alarm mode has been introduced, but the security alarm sensor is connected directly to the control unit, which complicates the installation, commissioning and maintenance of the on-door speakerphone, reduces its reliability, there is no monitoring system for the resistance (change in resistance) of the communication line security alarm sensor with control unit, there is no control over the safety of the intercom itself (protection signaling unauthorized unscrewing).

The closest technical solution to the proposed device is a multi-function intercom system “Domovoy KC-1011” (prototype) with additional lighting control functions for non-residential premises of the entrance, containing a control panel including a microcontroller with a keyboard, key device, control module for a locking device, a photo sensor, a position sensor, a module for interfacing with a dispatch and diagnostics system for elevators, a sound module with an integrated speech synthesizer, a control module a line, a real-time clock, a power supply, a lock device, lighting control modules: floor lighting switches, network power controllers and switches, and floor subscriber units, including subscriber communication facilities, connected through a coordinate line consisting of lines of the apartment number on the floor and lines of the floor number, to the control module of the line of the control panel, to the subscriber's communication facilities are connected n door sensors used as security sensors when the intercom performs a security function Alarm [2, 3].

The disadvantages of this intercom are: low functionality; the probability of unauthorized, accidental opening of the door in the dark when the tenant presses the switch to turn on the light at the moment when the code for this apartment is dialed from the control panel; lack of control over the state of the security sensor during negotiations between the tenant and the guest; lack of control over the safety of the intercom itself (electronic protection against unauthorized unscrewing).

The technical result to which the invention is directed is: to prevent a tenant from opening the door from the apartment due to combining the functions of turning on the lights in the dark at one time and remote door opening; improving the reliability of the intercom as a system of complex security alarm of increased comfort, including with control from unauthorized unscrewing of the intercom itself; simplified installation; expanding the functionality of the intercom as a security alarm with automatic registration in the alarm mode of people leaving the entrance, including at night in the absence of lighting, with control of the attic and basement; fire alarm; gas control devices and control devices for the condition of water conduits in the apartment and office premises; energy saving.

The specified technical result is achieved by the fact that the intercom system is multifunctional, comprising: a control panel including a microcontroller connected to a keyboard, a key device, a lock device control module, a line control module consisting of a control module and floor switch modules, the output of the control module being connected to the input of the floor switch module, the sound module, which includes an integrated speech synthesizer, code memory module, dispatch and diagnostics system of elevators, a photosensor , Position sensor (on-off), display module, real-time clock; Power Supply; locking device; external entrance lighting control module; the first and second controllers-switches of the mains supply and floor blocks of subscribers containing blocks of the subscriber, consisting of a sound module with a switch, a door sensor and a protective diode; floor lighting switches consist of two power controllers, a stable current generator (dual-mode) is introduced into the control panel - dynamic line load (first mode), which provides phantom power (simultaneous transmission of an analog signal and power via two conductors) of the subscriber unit sound module, and pulse system for recharging a backup power source (second mode); the following are additionally introduced into the subscriber unit: backup power supply; a timer and a control module for monitoring security sensors with k security sensors connected to it in series, including a door sensor, the output of the dispatch and diagnostics system of elevators connected to the first input of the microcontroller of the control panel, the second input of which is connected to the output of the key device, the third input the microcontroller is connected to the output of the photosensor and, in parallel, with the input of the position sensor, the fourth input of the microcontroller is connected to the first output of the position sensor, the second output of which is connected to the fifth input of the microcontroller, the sixth input of which is connected to the output of the code memory module, the seventh input of the microcontroller is connected to the output of the real-time clock, the terminals of the keyboard matrix are connected by a cable to the polling terminals of its status in the microcontroller, the first output of the microcontroller is connected to the input of the entrance lighting control module, the second the output of the microcontroller is connected to the input of the first controller-switch of the mains supply, the third output of the microcontroller is connected to the input of the second controller-switch the power supply, the outputs of the controllers-switches of the power supply are connected to the corresponding, in parallel, first inputs of the first and second power controllers of the floor lighting switches, the input of the code memory module is connected to the fourth output of the microcontroller, the input of the display module is connected to the fifth output of the microcontroller, the sixth output of the microcontroller is connected with the input of the control module of the locking device, the output of which is connected to the input of the locking device, the seventh output of the microcontroller is connected to the input of the control module, which is part of the line control module, the second input of which is connected to the output of the sound module and the output of the stable current generator in parallel, the input of the sound module is connected to the eighth output of the microcontroller, the ninth output of which is connected to the input of the stable current generator, the first output of the module the control is connected to the input of the analog-to-digital converter (ADC) built into the microcontroller, the linear outputs of the floor switch module included in the line control module are connected inenes, through a coordinate communication line consisting of n lines of the floor number and m lines of the number of apartments on the floor, with floor blocks of subscribers, which include m blocks of the subscriber, in the subscriber block the anode of the protective diode is connected to the line of the floor number, and the cathode is connected to parallel connected to the first input of the backup power source, the conclusions of the timer, the module for monitoring sensors of protection and sound module, the movable contact of the switch is connected to the first output of the sound module, and the fixed contact of the switch is connected to the second output after blowing sound, the first output of the security sensor control module is connected to the first timer input, k security sensors connected in series are connected to the second output and the second input of the security sensor control module, the outputs of the backup power source are connected to the corresponding power inputs of the timer and the security sensor control module, the second the input of the backup power supply is connected to the apartment number line on the floor, the first and second outputs of the floor switch module of the line control module are connected respectively about a third inputs of the first and second power controllers, pairwise parallel-connected inputs of the second power regulators storey lighting switches connected to their respective rooms floor lines, outputs the power supply are connected to respective inputs of the control unit supply a stable current generator and a locking device. They fix the intercom to the door using the back cover and special bolts.

A multifunctional intercom system may have a floor switch module, structurally allocated from the line control module. This design of the intercom allows you to significantly reduce the number of conductors in the line connecting the control panel with the communication line to the access panel and simplify the design of the control panel. The module of floor switches is installed in the signal panel of the first floor.

A multifunctional intercom system may also additionally comprise a second locking device, the input of the second locking device being connected to the second output of the control module of the locking device, a second locking device installed on the door of the attic and / or on the second door.

In addition, the multifunctional doorphone may additionally contain a security sensor in the control panel to provide electronic protection for the doorphone against unauthorized unscrewing, and the security sensor is made in the form of a normally open switch that closes the contact group when the rear doorphone cover is installed, i.e. after installation of the intercom, moreover, the movable contact of the security sensor is connected to a common wire, and the fixed contact is connected to the eighth input of the microcontroller.

In addition, the multifunctional intercom system may contain an LED and a remote lighting switch in the subscriber unit, the LED anode being connected to the cathode of the protective diode and in parallel with the first input of the backup power supply, the outputs of the timer and the sound module, the LED cathode connected to the movable contact of the remote lighting switch, the fixed remote contact the lighting switch is connected to the common wire and to the line of the apartment number on the floor.

In addition, a multifunctional intercom system may contain a power supply unit and a siren in the subscriber unit, and the output of the power supply unit is connected to the corresponding siren power input, the siren input is connected to the third output of the security sensors monitoring module and the telephone alarm system input (message transmission to the telephone, cellular) phone or pager).

A multifunctional intercom system can also additionally contain a fire alarm sensor control module with g fire sensors active and / or passive in the subscriber unit, the active sensors being powered by a phantom circuit - power is supplied via an information two-wire communication line, g fire sensors connected in parallel are connected by one output with the first input of the fire alarm sensor monitoring module, the second parallel-connected outputs of the fire sensors are connected to the second input of the fire sensor control module, the output of the fire sensor control module is connected to the second timer input, the power input of the fire sensor control module is connected to the output of the power supply.

In addition, the multifunctional intercom system may contain a gas sensor control module with a gas sensor in the subscriber unit, the gas sensor output being connected to the input of the gas sensor monitoring module, the output of which is connected to the third timer input, and the power input of the gas sensor monitoring module is connected to the output of the power supply.

Also, a multifunctional intercom system may contain a humidity sensor control module in the subscriber unit, and humidity sensors are supplied via a phantom circuit - power is supplied via an information two-wire communication line, h parallel humidity sensors are connected by one output to the first input of the humidity sensor control module, and second second parallel connected outputs humidity sensors are connected to the second input of the humidity sensor control module, the output of the humidity sensor control module is connected to the second m timer input, the power input of the humidity sensor control module is connected to the output of the power supply.

When monitoring office premises - attics and / or basements - additional subscriber units are installed there, which include a key device, and in the subscriber unit, the output of the key device is connected to the cathode of the protective diode, the first input of the backup power supply, the output of the timer and by the LED anode, the output of the power supply is connected to the corresponding power input of the key device.

A multifunctional intercom system may also additionally contain an electronic recorder and a television camera, the camera output being connected to the first input of the electronic recorder, the second input of which is connected to the tenth output of the microcontroller, the power supply output is connected to the corresponding power input of the electronic recorder, the output of the electronic recorder is connected to the control room.

In addition, in the multifunctional intercom in the subscriber unit, the timer can be made in the form of a microcontroller.

A multifunctional intercom system may additionally contain a transceiver via an alternating current network, the transceiver input via an alternating current network being connected to the third output of the floor switch module, the transceiver output being connected to an alternating current network of 220 V 50 Hz. The transceiver is installed on the AC mains in the power shield of the first floor.

Also, the multifunctional intercom system may further comprise a telephone line interface module, the input of the telephone line interface module being connected to the fourth output of the floor switch module, the output of the telephone line interface module connected to the telephone line.

In addition, in a multifunctional intercom system, an additional key device in a subscriber unit installed in office premises can be made in the form of a fingerprint reader.

In the multifunctional intercom, the photosensor can be made in the form of a separate module isolated from the control panel, with phantom power via an information wire.

A multifunctional intercom system may also contain a module for interfacing with the control system of an intelligent building - this is an integrated system for managing and monitoring the rational use and control (management, accounting and registration) of energy resources and life support systems of a building (residential or industrial).

A multifunctional intercom system contains an interface module with an intelligent building management system, the input of an interface module with an intelligent building management system being connected to the fifth output of the floor switch module, and the output being connected to an input of an intelligent building management system.

In the multifunctional intercom system, the backup power supply of the subscriber unit can be made in the form of a capacitor-ionistor with a double electric layer, the main advantage of which is a large capacity, usually 1-10 F, and an unlimited number of charge-discharge cycles.

This embodiment of a multifunctional intercom allows solving the tasks: creation of a multifunctional intercom with increased reliability, comfort, with security and fire alarm functions; simplified installation; the exclusion of false opening of the door by the tenant from the apartment due to the combination in one switch of the functions of turning on the light in the dark, and remote door opening; improving the reliability of the intercom as a system of complex security alarm, including with control from unauthorized unscrewing of the intercom itself; expanding the functionality of the intercom as: a security alarm with automatic registration in the alarm mode of people leaving the entrance, including at night in the absence of lighting, with control of the attic and basement; fire alarm; gas control devices and control devices for the condition of water conduits in the apartment and office premises; command apparatus turning on console street lighting. The intercom is the basic element, the core of an integrated multifunctional control and management system within the framework of the concept of an intelligent building.

The functional diagram of the multifunctional intercom is presented in the drawings.

The multifunctional intercom system (Fig. 1), the intercom system further comprises a control panel 1, a power supply 2, locking devices 3, n floor units of subscribers 5, n floor lighting switches 6, an external lighting control module of the entrance 7, a network power supply controller-switch 8 s the function of adjusting the output voltage depending on the control signal, the controller switch network power 9 and the coordinate communication line, consisting of n lines of the floor number and m lines of the number of apartments on the floor. The control panel 1 contains a microcontroller 10, a key device 11, a photosensor 12, a position sensor 13, a keyboard 14, a code memory module 15, an indication module 16, a control module for the locking device 17, a sound module 18 (a speech synthesizer is integrated into the sound module), a control module line A, which includes a control module 19 and a module of floor switches 4, a real-time clock 20 and a stable current generator 21. The keyboard 14 is implemented in the form of a matrix containing twelve keys. The output of the dispatch and diagnostic system is connected to the first input of the microcontroller 10, the second input of which is connected to the output of the key device 11, the third input of the microcontroller 10 is connected to the output of the photosensor 12 and, in parallel, with the input of the position sensor 13, the fourth input of the microcontroller 10 is connected to the first output of the sensor position 13, the second output of which is connected to the fifth input of the microcontroller 10, the sixth input of the microcontroller 10 is connected to the output of the code memory module 15, the seventh input of the microcontroller 10 is connected to the output of the clock ealnogo time 20. Keyboard 14 is implemented as a 3x4 matrix of keys, including three outputs and four inputs. The keyboard 14 is connected to the corresponding terminals polling the state of the microcontroller 10 with a cable consisting of seven conductors. The first output of the microcontroller 10 is connected to the input of the outdoor lighting control module of the entrance 7, the second output of the microcontroller 10 is connected to the input of the first controller-switch of the mains power 8, the third output of the microcontroller 10 is connected to the input of the second controller-switch of the mains power 9, the outputs of the controllers and commutators of the mains power 8 and 9 are connected, respectively, with floor lighting switches 6, namely, with the first inputs of the first power controllers 22 of the lighting of the elevator landing areas connected in parallel with the first inputs and with the first inputs of the second power controllers 22 of the entrance lighting connected in parallel, the input of the code memory module 15 is connected to the fourth output of the microcontroller 10, the indication module 16 is connected to the fifth output of the microcontroller 10, the sixth output of the latter is connected to the input of the control module of the locking device, the second the inputs of the power controllers of 22 floor lighting switches 6 are connected to the corresponding lines of the floor number, the third inputs of the first power controllers are connected in parallel 22 are connected to the first output of the floor switch module 4, the second output of which is connected to the third inputs of the second power controllers 22 of the floor lighting switches 6 connected in parallel, the sixth output of the microcontroller 10 is connected to the input of the control module of the locking device 17, the output of which is connected to the input of the locking device 3, the seventh output of the microcontroller 10 is connected to the first input of the control module 19, the second input of which is connected to the output of the sound module 18 and in parallel with the output of the stable current generator 21, input the sound module 18 is connected to the eighth output of the microcontroller 10, the first output of the control module 19 is connected to the input of the A / D analog-to-digital converter built into the microcontroller, the outputs of the floor switch module by means of a coordinate line consisting of n lines of the floor number and m lines of the number of apartments per floor, connected to the floor blocks of subscribers 5. The outputs of the power supply 2 are connected to the corresponding power inputs of the control panel 1, the lock device 3 and the stable current generator 21. The structure of the floor block of subscribers 5 in walks m blocks of subscriber 1 (figure 2). In the subscriber unit 28, the anode of the diode VD1 is connected to the floor number line, and the cathode VD1 is connected to the first input of the backup power supply 29, the timer 30, the security sensor monitoring module 31 and the sound module 32, the movable contact of the switch SA1 is connected to the first output of the sound module 32, and the fixed contact of the switch SA1 is connected to the second output of the sound module 32, the first output of the security sensor monitoring module 31 is connected to the first input of the timer 30, k of the security sensors S1-Sk connected in series to the second the output and the second input of the monitoring module of the security sensors 32, the outputs of the backup power supply 29 are connected to the corresponding inputs of the timer 30 and the monitoring module of the security sensors 32, the second input of the backup power supply 29 is connected to the apartment number line on the floor. The power supply of the subscriber units 28 (FIG. 2), which are part of the floor units of the subscribers 5 (FIG. 1), is carried out according to a phantom circuit (via a two-wire line connected to the subscriber unit 28, both the subscriber's communication means and the transmission of the information signal are simultaneously supplied). The power supply of the outdoor lighting control module of the entrance 7, the controllers and switches of the mains power supply 8 and 9 is carried out from the AC network. The composition of the floor lighting switch 6 includes two power controllers 22, the first power controller 22 smoothly turns on and off the lighting of the elevator landing site, including during daylight hours, where necessary, and the second smoothly turns on and off the entrance lighting of the corresponding floor in Night time.

The multifunctional intercom system contains (Fig. 1) a module of floor switches 4, which is structurally allocated to a separate device, and the output of the control module 19 is connected by a cable to the input of the module of floor switches 4. This design of the doorphone can significantly reduce the number of conductors in the line connecting the control panel 1 s communication line to the access panel and simplify the design of the control panel 1.

The multi-function intercom also contains a second locking device 3 (Fig. 1), the input of the second locking device 3 being connected to the second output of the control module of the locking device 17, and the second locking device 3 installed on the attic door.

In addition, the multifunctional doorphone contains a security sensor S in the control panel 1 (Fig. 1) to provide electronic protection for the doorphone from unauthorized unscrewing, the movable contact of the security sensor S being connected to a common wire and the fixed contact being connected to the eighth input of the microcontroller 10.

Additionally, the multifunctional intercom system contains in the subscriber unit 28 (Fig. 2) a VD2 LED and a SA2 remote lighting switch, and the anode of the VD2 LED is connected to the cathode of the protective diode VD1 and in parallel with the first input of the backup power source 29, the outputs of the sound module 32 and timer 30, the cathode LED VD3 is connected to the movable contact of the remote lighting switch SA2, the fixed contact of the remote lighting switch SA2 is connected to the common wire and to the line of the apartment number on the floor.

In addition, the multifunctional intercom system contains a power supply 34 and a siren 33 in the subscriber unit 28 (Fig. 2), and the output of the power supply 34 is connected to the corresponding power input of the siren 33, the siren input 33 is connected to the third output of the security sensors monitoring module 31 and the entrance of the telephone security system.

The multifunctional intercom system also contains in the subscriber unit 28 (Fig. 2) a fire alarm sensor control module 35 with g fire sensors 36 active and / or passive, and the active sensors 36 are powered by a phantom circuit - power is supplied via an information two-wire communication line, g parallel-connected fire sensors 36 are connected by one output to the first input of the fire alarm sensor control module 35, the second parallel-connected outputs of fire sensors 36 are connected to the th input module control fire detectors 35 whose output is connected to a second input of timer 30, the input control module power fire detectors 35 connected to the output 34 of the power supply.

Additionally, the multifunctional intercom system contains in the subscriber unit 28 (figure 2) a gas sensor control module 37 with a gas sensor 38, and the output of the gas sensor 38 is connected to the input of the gas sensor control module 37, the output of which is connected to the third input of the timer 30, the power input of the control module the gas sensor 37 is connected to the output of the power supply 34.

Also, the multifunctional intercom system contains in the subscriber unit 28 (Fig. 1) a humidity sensor control module 39, and the humidity sensors are supplied via a phantom circuit - power is supplied via an information two-wire communication line, h humidity sensors 40 connected in parallel are connected by one output to the first input of the control module humidity sensors 39, the second parallel-connected outputs of humidity sensors 40 are connected to the second input of the module for monitoring humidity sensors 39, the output of which is connected to the fourth input of the timer 30, control power input module humidity sensor 39 is connected to the output of the power supply 34.

When monitoring office premises - attics and / or basements - the multifunctional intercom system contains subscriber units 28 (Fig. 2), which additionally include key device 41, the output of key device 41 is connected to the cathode of the protective diode VD1, the first input of the backup power source 29, the findings: timer 30, sound module 32 and the anode of the LED VD2.

The multi-function intercom also contains an electronic recorder 24 (Fig. 1) and a camera 23, the output of the camera 23 being connected to the first input of the electronic recorder 24, the second input of which is connected to the tenth output of the microcontroller 10, the output of the power supply 2 is connected to the corresponding power input of the electronic recorder 24 , the output of the electronic recorder is additionally connected to the control room.

In addition, in the multifunctional intercom in the subscriber unit 28 (Fig. 2), the timer 30 is made in the form of a microcontroller.

The multifunctional intercom system further comprises a transceiver over an alternating current network 25 (Fig. 1), wherein the transceiver input over an alternating current network 25 is connected to the third output of the floor switch module 4, the output of the transceiver 25 is connected to an alternating current network 220 V 50 Hz.

Also, the multifunctional intercom system contains a module for interfacing with a telephone line 26 (Fig. 1), wherein the input of a module for interfacing with a telephone line 26 is connected to the fourth output of the floor switch module 4, and the output of the module for interfacing with a telephone line 26 is connected to a telephone line.

In addition, the multifunctional intercom system contains an additional key device 41 (FIG. 2) in the subscriber unit 28 installed in the office premises, made in the form of a fingerprint reader.

In the intercom multi-function photosensor 12 (Fig. 1) is made in the form of a separate module isolated from the control panel 1, with phantom power via an information wire.

The multifunctional intercom system contains an interface module with the control system of the smart building 27, the input of the interface module with the control system of the smart building 27 connected to the fifth output of the floor switch module 4, and the output connected to the input of the control system of the smart building.

The microcontroller 10 (Fig. 1), which is part of the control panel 1, is based on the AVR RISC of the AT90S8535 microcontroller, the memory module 15 is based on the AT25C160 microcircuit, the additional key device 13 (Fig. 2) of the subscriber unit is based on the fingerprint reader microcircuit fingers FDC4A14 of the company ATMEL Inc, the power regulator 22 (Fig. 1) and the external lighting control module of the entrance 7 are made on the basis of the KR1182PM1 microcircuit, the network controllers and switches 8 and 9 are made on the KR1182PM1 and KR1182CA1 microcircuits manufactured by the Scientific and Technical Center SIT in Bryansk. Real-time clock 20 is made on a chip DS 1306 by Dallas Inc. As a real-time clock 20, a timer built into the microcontroller can be used using an external clock (32768 Hz) quartz resonator. As fire sensors 9, fire smoke detectors IP 212-41m are used, thermal magnetic contact detectors IP 105-2-1, etc. Security sensors S1-Sk - magnetic contact detectors of the “SMK” type, shock-type detectors of the “Window” type, etc. The transceiver via AC 25 is based on the KR1446XK1 microcircuit manufactured by Angstrem OJSC. The programming of the microcontroller 10 is carried out during the assembly of the intercom; a mode of in-circuit programming of the microcontroller 10 of the intercom is also provided for when changing the configuration — expanding the functionality. The keys are optical keys and / or semiconductor switches of the type DS 1990A from Dallas Inc. or similar keys based on K1233KT2 microcircuits manufactured by STC SIT, Bryansk. The keys can be registered by the user using the master key or the master code entered from the keyboard 14 of the control panel 1. Information about the registered keys is stored in the code memory module 15 in the cells grouped by apartment numbers and can be changed quickly in case of loss or exit out of order keys. In the event that when installing the intercom control panel, street lighting falls on the photosensor 12 built into the control panel 1, an external photosensor with phantom power is used, which is installed in an unlit place.

The intercom condition is a non-volatile memory area of 512 bytes in size allocated in the code memory module 15 - it contains data on the activated operation modes and configuration of the intercom system, such as the presence of lighting control modes, installation of apartment alarm, gas control, fire alarm, and water conduit control modes, control of office space - attic and basement. The intercom is an integrated part of an integrated management system as part of the concept of an intelligent building.

The intercom works as follows.

Standby mode. The mode is activated when there is no tenant or guest in the active zone of the position sensor 13 for two minutes. The transition time to standby mode is stored in the word state of the intercom and can be changed by the user. The active zone of the position sensor 13 is switched by a signal from the output of the photosensor 12 to the input of the position sensor 13 and, in parallel, to the third input of the microcontroller 10. In daylight, the active zone of the position sensor 13 is 0.8-1.2 m, and in the dark time - 2.5-3 m. The microcontroller 10 controls the presence of signals at the first and second outputs of the position sensor 13, cyclically polling the state of its fourth and fifth inputs. After two minutes, by interruption from the first built-in timer of the microcontroller 10, the standby routine is started, the microcontroller 10 cyclically transfers the code of the next subscriber (apartment) to the line control module and polls the status of its A / D input - analog-to-digital line monitoring: status monitoring backup power source 29; checking the status of security sensors Sk, fire sensors 36, gas sensor 38 and humidity sensors 40; waiting for the tenant to turn on the SA2 switch before leaving the apartment, at night, to turn on the lighting or the door sensor S1 to fire when the tenant leaves the apartment in the case when the apartment is not under security; waiting for a confirmation signal to open the second locking device 3 from the additional key device 41 of the subscriber unit 28 office space. The microcontroller 10 transfers for a short time to the second mode - the maximum current, the stable current generator 21 for boosting the backup power supply 29 of the subscriber unit 28. Then the microcontroller 10 transfers the signal from the ninth output to the stable current generator 21 in the first mode - working. The timer 30 using the control signals coming from the output of the monitoring modules of the security sensors 34, monitoring the fire alarm sensors 35, monitoring the gas sensor 37 and monitoring the humidity sensors 39, respectively, received at the first, second, third or fourth inputs of the timer 30, generates response signals to control panel 1 intercom. After time T1 from the moment the subscriber unit 28 is connected to the microcontroller 10, the timer 30 gives a signal of duration t0 if the security sensors S1-Sk are in normal condition when the apartment is in security mode or t1 if the apartment is not armed or one of the sensors has been activated S1-Sk, the signal from the first output of the sensor monitoring module of the guard 31 is fed to the first input of the timer 30, if the apartment is under protection. In parallel with the second output of the security sensors monitoring module 31, a signal is sent to turn on the internal siren 33 and then goes to the telephone security system, if any. In the fire control mode, timer 30, after time T2, gives a signal of duration t0 if the fire protection sensors 36 are in normal condition and the signal from the output of the fire sensor control module 35 does not go to the second input of timer 3, or t1 when one of the fire sensors is triggered security 36. After time T3, timer 30 gives a signal of duration t0 if the gas sensor 37 is in a normal state and, accordingly, there is no signal at the output of the gas sensor control module 37, or tl after the triggering of the dates gas 38 when reaching a gas concentration above the maximum permissible value. After a time T4, timer 30 generates a signal of duration t0 if the humidity sensors 40 are in a normal state, or tl when the threshold humidity value is exceeded, i.e. in case of water leakage from the conduits of the apartment or office premises, while the signal from the output of the humidity sensor control module 39 goes to the fourth input of the timer 30. The polling cycles are repeated until the last apartment number in the stairwell is reached and begin again from the first apartment number in the stairwell. When the tenant leaves the apartment in the dark, he presses the switch SA2. The VD2 LED in this case performs a dual function - it acts as a low-voltage zener diode, shunts the line at the moment the microcontroller 10 connects the current generator to it and at the same time gives light confirmation of the inclusion of access lighting, after which the microcontroller 10 duplicates the information on the inclusion of lighting by applying an audio signal to sound module 32 of this subscriber.

Next, the intercom goes to work in the first or second modes depending on the state of the signal at the output of the photosensor 12 or, when the photosensor 12 fails - in emergency mode, according to the solar calendar, taking into account the time of sunrise and sunset, implemented using a real-time clock 20 .

The control mode for the premises, including the service ones - attic and basement (security, fire control, gas control and water conduit control), is an integral part of the standby mode and is activated by the tenant, for apartments, or by staff, for office premises, when the condition that the components corresponding to the modes are installed in the apartment or office premises (Fig. 2) (this is recorded in the word state of the intercom at the time of its commissioning or later, when changing and supplementing functions at the request of residents with service) - security sensors Sk, and / or fire sensors 36, and / or gas sensors 38, and / or humidity sensors 40. When one of the security sensors S1-Sn is triggered, the security trigger is switched on in the security sensors monitoring module 31 and remembers the fact sensor response. From the first output of the security sensors monitoring module, the signal is supplied to the first input of the timer 30, which informs the microcontroller 10 of the control panel 1 about the fact that the security sensor was triggered at the time of interrogation. Additionally, from the second input, a signal about the operation of the security sensor for a period of 2 to 60 seconds, which is determined by the user and stored in the word state of the intercom, is fed to the siren input, notifying others about the alarm. The power supply of the fire alarm sensor control module 35, the gas sensor control module 37 and the humidity sensor control module 39 is provided from an individual power supply 34. In case of interruption to the intercom, power is supplied from the backup battery built into the power supply 2 (Fig. 1).

When the electronic recorder 24 mode is activated in the intercom state on a command from the control panel 1 (Fig. 1), the registrar electronically photographs people leaving the doorway (from 5 to 64 frames) when the burglar alarm is triggered in an apartment that is secured, a communication line accident or blackout the intercom. The maximum capacity of the frame memory module 36 is 128 frames. The microcontroller 10 of the control panel 1, the signal from the tenth output, turns on the power to the electronic recorder 24 and the camera 23 and, in the presence of a signal from the built-in motion sensor or when changing the picture in the camera, records a frame with the recording date and time recorded in the frame. The output of the electronic recorder 24 is connected to the control room video control. Electronic recorder 24 - dual mode. The first is the security mode, the video signal is output by the electronic recorder 24 after the fact that the subscriber has been armed. The second mode is a constant video monitoring mode, the video signal is present at the output of the electronic recorder 24 constantly. The camera 23 is installed covertly on the landing at the exit of the entrance.

The emergency telephone mode from the control panel 1 (Fig. 1) is activated in the word state of the intercom if there is a module for interfacing with the telephone line 26. A resident or guest types on the control panel keyboard 1 “Call” key, the access code for the telephone line, presses the “Call” key again ”, After which the microcontroller 10, using the interface module with the telephone line 26, connects the telephone line to the internal line of the intercom and, having heard the response signal of the telephone line, the subscriber dials the number of the required service (services 01 - fire service, 02 - police, 03 - ambulance, 04 - gorgaz). Talk time is limited to two minutes. At the time of negotiations, it remains possible to exit the staircase. After the negotiations are completed, press the “Reset” key on the keyboard 14 of the control panel 1. In addition, the telephone line interface module 26 is used in the security mode with automatic dialing to the central security console and for remote disconnection of subscribers, they are added to the “black” list of subscribers disconnected from the doorphone .

In case of unauthorized removal of the back cover, the switch S of the control panel 1 is opened (Fig. 1), after which the microcontroller 10 issues an alarm signal - a two-tone siren to the sound module of the control panel 1 and floor units of subscribers 5. Next, the microcontroller 10 issues a voice message using the built-in sound module 18 speech synthesizer, about unauthorized unscrewing of the intercom.

In the dark, the intercom is used additionally as a command unit for switching on console street lighting. The microcontroller 10, after the photosensor 12 is triggered, transmits a signal to turn on the console street lighting using the transceiver via AC 25. The signal is transmitted all the time the photosensor 12 is turned on periodically after 10 seconds. The absence of a control signal for more than 60 seconds leads to the shutdown of street console lighting. Using the transceiver over AC 25, the microcontroller 10 duplicates the alarm with the transmission of the apartment number where the alarm system worked - security, and / or fire, and / or gas, and / or water conduit control, to the control room. The radius of the guaranteed operation of the transceiver on the AC 25 network is about 200 meters.

First mode. In daylight, the signal from the output of the photosensor 12 switches the position sensor 13 to the first mode of operation - in the near zone. The active zone can be changed at the request of users. When the tenant approaches this distance (the presence of a person in the active zone), the position sensor 13 from its first output gives a signal to the fourth input of the microcontroller 10, which, having determined the presence of the signal, includes a subroutine for recognizing the code of the pressed key and monitoring the operation of the key device 11 by cyclic polling of the signal at the second input of the microcontroller 10. When a key is detected in the key device 11, the code is read, compared with the value stored in the code memory module 15 and, if the code matches, by opening the locking device 3 by the signal generated at the sixth output of the microcontroller 10 through the control module of the locking device 17. In the absence of a key, the tenant or guest dials the apartment number on the keyboard 14, which is then checked by the microcontroller 10 for the absence of a “black” list if this the subscriber is disconnected - an error tone signal or a sound message is produced by the speech synthesizer of the sound module 18, depending on the set mode, then the intercom switches to the previous state of cyclic polling of keys 14 and key recognition. If the number that goes out of the registered range of apartments is incorrectly set by a signal from the fifth output of the microcontroller 10 to the display module 16, the red indicator turns on and at the same time a signal from the eighth output of the microcontroller 10 is sent to the input of the sound module 18 tone signal or command to issue a message by the speech synthesizer of the sound module 18 , depending on the set mode. If the apartment number is not in the forbidden list, the microcontroller 10 from the seventh output transmits the connected apartment code to the control module of line 19, which connects, through the floor switch module 4, the corresponding subscriber unit of the floor block of subscribers 5 to the control panel 1 for negotiations. The call status is limited in time to two minutes. Premature termination of the call mode occurs when the front door is opened or another apartment number is dialed from the control panel. The call time code is stored in the word state of the intercom in the code memory module 15 and can be changed by the user. After negotiations, the tenant can let the guest in by pressing switch SA1 of his subscriber unit 1, the response signal through the floor switch modules 4 and control line 19 is fed to the A / D input of the microcontroller 10 and, by the signal from the sixth output of the microcontroller 10, fed to the input of the control device of the lock device 17, the locking device 3 opens. When the lighting control mode of the elevator landing sites is activated in the intercom state in daylight at the same time as the door is opened (the elevator is in working condition, as evidenced by the presence of an enable signal at the first input of the microcontroller 10 connected to the output of the dispatch and diagnostics system of the elevators), the signal from the second the output of the microcontroller 10 includes a controller switch network power 8, and the output voltage of the controller switch network power 8 depends on the control signal formed by the microcontroller 10 at the second output, depending on the illumination of the photosensor 12. Additionally, the controllers-switches of the power supply 8 and 9 protect their switching elements from overcurrent, monitor leakage currents through the zero and phase wires, which eliminates the possibility of electric shock to people current in case of violation of insulation or human touch to live wires of lighting, and also eliminates the possibility of unauthorized connection of residents to the driveway svescheniyu. The voltage at the output of the controller-switches 8 and 9 is limited in amplitude to the minimum acceptable value in accordance with GOST 13109-97. Mains power is supplied to the parallel connected first inputs of the power controllers of the 22 floor lighting switches 6, which provide lighting for the elevator landing sites. The signal on the line of the floor number in parallel with the floor block of subscribers 5 is fed to the second pairwise parallel connected inputs of the respective power controllers of the 22 floor lighting switches 6, and since the power supply by the network switch-controller 8 is supplied only to the first power controllers 22 of the lighting of the elevator landing pad, it enables the corresponding power regulator 22. The microcontroller 10 receives a signal from the seventh output, through the control modules of the line 19 and floor switches 4, enters in parallel, the third inputs of the power regulators of the 22 floor lighting switches 6, smoothly turns on, using the prepared first power regulator 22, the lighting of the elevator landing site of the corresponding floor. Then, according to a similar procedure, the lighting of the landing platform of the elevator on the first floor is smoothly turned on. Lighting turns on for a time determined by the built-in timer of the microcontroller 10, depending on the floor number. Thus, the lighting of the first, landing, floor and destination floor, where or from where the tenant moves, remains at the same time turned on. The lighting on time is calculated by the microcontroller from the sum of the approach time to the elevator and the elevator waiting time - three minutes, plus the elevator travel time equal to 30 × n, where n is the destination floor number, in seconds, plus the time required to enter the apartment is three minutes . After a specified time, the included first power controller 22 of the floor switch 6 is turned off by a second signal from the seventh output of the microcontroller 10. The intercom goes into standby mode.

The difference between the floor lighting switches 6 installed in the office premises - in the attic and / or in the basement - is the use of additional step-down transformers to provide power to low-voltage lighting lamps (24 V or 36 V). Opening the locking device 3 (Fig. 1) of these rooms is carried out using an additional key device 41 (Fig. 2) located in the subscriber unit 28 or from the control panel 1 (Fig. 1) of the intercom.

The second mode. At night, there is no signal from the output of the photosensor 12 and the position sensor 13 switches to work in the far zone (the second mode of the position sensor). The active zone of the second mode is established at the stage of commissioning. If a tenant or a passerby enters the active zone of the position sensor 13, the signal from its second output goes to the fifth input of the microcontroller 10, which, with the signal from the first output, through the external lighting control module of the entrance 7, smoothly turns on the external lighting of the entrance for two minutes (time, which turns on the lighting, can be changed by the user within one to five minutes), the photosensor 12 is turned on and switches the position sensor 13 to the first mode of operation - in the near zone. Further, the work takes place in accordance with the first mode. The difference is as follows. Firstly, in the dark, in addition to lighting the elevator landing sites, according to a similar procedure, the access lighting on the selected and first floors is turned on. The permission to turn on the second power controller 22 of the corresponding floor lighting switch 6 transfers the microcontroller 10 from the third output to the input of the network power controller-switch 9, which connects the mains power to the first inputs of the second power controllers 22 of the entrance lighting connected in parallel. After a lapse of time, the lighting is turned off by the repeated signal of the microcontroller 10 from the seventh output through the control modules of the line 19 and floor switches 4. Secondly, when the front door is opened, when the tenant leaves the entrance, the microcontroller 10 receives a signal from the first exit through the external entrance lighting control module 7, turns on the exterior lighting of the porch for two minutes. Next, the intercom goes into standby mode.

Night standby mode. From the keyboard 14 of the control panel 1 of the intercom, the user can set the night (standby) mode of operation of the lighting (at night the lighting of the landing sites of the elevator is constantly on), with any pre-set brightness of the lamps. The microcontroller 10 sets the corresponding flag and brightness code in the word state of the intercom, after which the mode is turned on automatically when the photosensor 12 is activated in the dark. Turning off the night mode is possible by the flag of the real-time clock, for example, after midnight. The off flag and time are entered by the user from the keyboard 14 of the control panel 1.

When the tenant leaves the apartment, he presses the switch SA2, the microcontroller 10 determines, using the periodic polling of the state of the switches SA2 of the subscriber unit 1 (Fig. 2), the closed switch SA2 and gives a short sound signal to the subscriber unit 28, confirming the inclusion of lighting on the first floor and the floor where the closed switch SA2 has been defined. In case the tenant needs to move up the staircase, he continues to hold switch SA2 until the second tone signal, after which the microcontroller 10 signals from its second and third outputs to the inputs of the controllers-switches of the mains supply, supplies network power to everything in the dark, power regulators of 22 floor lighting switches 6, sets in turn, through the line control module 19 and floor switch modules 4, a permission signal on the floor line, and a signal from the second and third output c, with a delay, includes lighting the entire entrance for a period of five to fifteen minutes (the time for which the entrance lighting is turned on is stored in the word state of the intercom and can be changed quickly by the user). After a specified time, the microcontroller 10 turns off the lights by repeated signals. When a tenant leaves the apartment if he forgot to turn on the entrance lighting first, a similar switching command is given after opening the door sensor S1 (the door is open, the apartment is not in security mode), the entrance lighting of the tenant’s floor and the first floor turns on smoothly, and when it’s idle The elevator switches on the fan control mode (third mode).

The third mode (fan control mode). The elevator is not working or the staircase is disabled. There is no signal from the dispatching and diagnostics system of the elevators at the first input of the microcontroller 10. In the absence of communication with the dispatch system and diagnostics of elevators, the third mode can be activated by the user from the keyboard 14 of the control panel 1, after which the microcontroller 10 sets the corresponding flag in the word state of the intercom. The microcontroller 10 operates on a fan-controlled lighting program. When a tenant or a guest enters the staircase, the microcontroller 10 gives signals from the second and third outputs to turn on the power supply controllers 8 and 9, allowing the inclusion of floor lighting switches 6. The destination floor is determined by the microcontroller 10 by the key code, if the tenant has entered, or by the number dialed apartment if guest is included. Next, the microcontroller 10, starting from the first floor, sequentially, with a delay of thirty seconds, by a signal from the seventh output through the control modules 19 and floor switches 4 connects the corresponding lines of the floor number, turns on the floor lighting, up to the destination floor. The lighting is turned off in the same order starting from the first floor, in increments of one plus n minutes, where n is the number of the current floor, up to the destination floor. When a tenant leaves the apartment, the lighting is controlled by the switch SA2 or the door sensor S1, the subscriber unit 28 and occurs in the reverse order. Additionally, when opening the front door, when the tenant leaves the entrance, the microcontroller 10 receives a signal from the first exit, using the external lighting control module of the entrance 7, turns on the external lighting of the entrance for two minutes. Disabling the third mode of operation is possible from the keyboard 14 of the control panel 1 or automatically upon receipt of a control signal from the dispatching system and diagnostics of elevators to the first input of the microcontroller 10.

Using real-time clock 20. To ensure a more comfortable operation of the intercom during peak hours, when several tenants can pass at the same time, real-time clock 20 switches off the floor-mounted and fan-controlled lighting modes for a period set by users and stored in code memory 15 . The microcontroller 10 sequentially turns on all floor lighting switches of the entrance 6, depending on the state of the photosensor 12, for a period of one plus per minute, with the elevator running, and four plus n minutes, with the elevator off, where n is the number of floors in the entrance.

In case of failure or absence of the photosensor 12, the lighting is controlled using the calendar mode, the transition to the mode is carried out automatically if there is no signal from the photosensor 12. The calculation of the on and off time of the access lighting is carried out according to the solar calendar with the calculation from the base date June 22 - day summer equinox. The calendar current date is entered into the memory module of codes 15 and the real-time clock 20 at the time of commissioning by maintenance personnel.

When you install control over the service premises, the entrance and exit to them is carried out using the service key to the additional key device 41 (Fig.2) or by registered fingerprints stored in this key device.

In order to inform the service department and better intercom support, a fix was introduced using real-time clock 20 with storage of recorded data in the memory module of codes 15, information about the service life, MTBF, failure time and downtime.

Sources of information

1. Technical passport according to ENSK.465214.000 TU for intercom “Impulse DS”, manufactured by CJSC “Proton-Impulse”, Russia, 302027, Orel, ul. Leskova 19, http://www.orel.ru / straj.

2. Technical passport for the Domovoy KS-1011 on-door speakerphone, manufactured by Electrongarantservice LLC, 390028, Ryazan, ul. Village builders, d.1B, off.67, specifications SARG 6652-001-57402356-02 TU, 2002

3. Patent of the Russian Federation No. 2205520, IPC. 7 H 04 M 11/02, 2002

Claims (17)

1. The multifunctional intercom system comprising a control panel including a microcontroller connected to a keyboard, a key device, a lock device control module, a line control module consisting of floor switch modules and a control module, the output of the control module being connected to the input of the floor switch module, a sound module , which includes an integrated speech synthesizer, code memory module, dispatch and diagnostics system for elevators, a photosensor, position sensor, an indication module, a real clock time, power supply, lock device, control module for external lighting of the entrance, the first and second controllers-switches of mains power and connected to the control panel using a coordinate line consisting of n lines of the floor number and m lines of the number of apartments on the floor, floor units of subscribers, including m subscriber units with switches and door sensors and n floor lighting switches, according to the number of floors in the entrance, which include the first and second power controllers, characterized in that the control panel is entered stable current generator, a redundant power supply, a timer and a control module for monitoring security sensors with k security sensors connected in series with it, including a door sensor, are added to the subscriber’s unit, the output of the dispatch and diagnostics system of the elevators connected to the first input of the microcontroller of the control panel the second input of which is connected to the output of the key device, the third input of the microcontroller is connected to the output of the photosensor and in parallel with the input of the position sensor, the fourth input is micro the ontroller is connected to the first output of the position sensor, the second output of which is connected to the fifth input of the microcontroller, the sixth input of which is connected to the output of the code memory module, the seventh input of the microcontroller is connected to the output of the real-time clock, the terminals of the keyboard matrix are connected by a cable to the polling terminals of its state in the microcontroller, the first output of the microcontroller is connected to the input of the exterior lighting control module of the entrance, the second output of the microcontroller is connected to the input of the first controller-switch of the network Italy, the third output of the microcontroller is connected to the input of the second network power controller-switch, the outputs of the network power controllers and switches are connected to the first inputs of the first power regulators of the floor lighting switches connected in parallel, the input of the code memory module is connected to the fourth output of the microcontroller, the input of the display module is connected to the fifth the output of the microcontroller, the sixth output of the microcontroller is connected to the input of the control module of the lock device, the output of which is connected to the input of the lock about the device, the seventh output of the microcontroller is connected to the first input of the control module included in the line control module, the second input of which is connected to the output of the sound module and the output of the stable current generator in parallel, the input of the sound module is connected to the eighth output of the microcontroller, the ninth output of which is connected to stable current generator input, the first output of the line control module is connected to the input of the analog-to-digital converter built into the microcontroller, the first and second outputs of this module of the line switches of the line control module are connected to the third inputs of the first and second power controllers of each floor lighting switch, paired in parallel to the second inputs of the first and second power controllers of the floor lighting switches are connected to the corresponding floor number lines, the subscriber floor blocks include m subscriber units , in the subscriber unit, the anode of the protective diode is connected to the line of the floor number, and the cathode is connected to the first input of the backup source connected in parallel power supply and the conclusions of the timer, the monitoring module of the security sensors and the sound module of the subscriber, the moving contact of the switch is connected to the first output of the sound module, and the fixed contact of the switch is connected to the second output of the sound module of the subscriber, the first output of the monitoring module of the security sensors is connected to the first input of the timer, k security sensors connected in series, connected in series, respectively connected to the second output and second input of the security sensors monitoring module, the outputs of the backup power source are connected s to corresponding inputs of the timer and the power control module protection sensor, the second reserve power supply input connected to the line number of flats per floor, the power supply outputs are connected to respective inputs of the control unit supply a stable current generator and a locking device. 2. The multi-function intercom according to claim 1, characterized in that it comprises a second locking device, the input of the second locking device being connected to the second output of the control module of the locking device. 3. The multifunctional intercom according to claim 1 or 2, characterized in that a security sensor is introduced into the control panel to provide electronic protection of the intercom from unauthorized unscrewing, the security sensor made in the form of a normally open switch that closes the contact group when the rear door intercom is installed, this movable contact of the security sensor is connected to a common wire, and a fixed contact of the security sensor is connected to the eighth input of the microcontroller. 4. The multifunctional intercom system according to claim 3, characterized in that an LED and a remote lighting switch are introduced into the subscriber unit, the anode of the LED being connected to the cathode of the protective diode and in parallel with the first input of the backup power source, the outputs of the timer and the sound module, the cathode of the LED connected to the movable contact of the remote lighting switch, the fixed contact of the remote lighting switch is connected to the common wire and to the line of the apartment number on the floor. 5. The multifunctional intercom system according to claim 4, characterized in that a power supply unit and a siren are inserted into the subscriber unit, the output of the power supply unit being connected to the corresponding siren power input, the siren input connected to the third output of the security sensor monitoring module and the telephone security system input connected in parallel . 6. The multifunctional intercom system according to claim 5, characterized in that a fire alarm sensor monitoring module with g fire sensors active and / or passive is introduced into the subscriber unit, and the active sensors are powered by a phantom circuit - power is supplied via an information two-wire communication line, g parallel-connected fire sensors are connected by one output to the first input of the fire alarm sensor control module, the second parallel-connected outputs of the fire sensors are connected to the second input of the fire sensor control module, the output of the fire sensor control module is connected to the second timer input, the power input of the fire sensor control module is connected to the output of the power supply. 7. The multifunctional intercom according to claim 6, characterized in that a gas sensor monitoring module with a gas sensor is introduced into the subscriber unit, the gas sensor output being connected to an input of a gas sensor monitoring module, the output of which is connected to a third timer input, and a sensor monitoring module power input gas is connected to the output of the power supply. 8. The multifunctional intercom system according to claim 7, characterized in that a humidity sensor control module is introduced into the subscriber unit, moreover, the humidity sensor is powered by a phantom circuit - the power is supplied via an information two-wire communication line, h parallel humidity sensors are connected by one output to the first input humidity control module, the second parallel-connected outputs of the humidity sensors are connected to the second input of the humidity sensor control module, the output of the humidity sensor control module union of a fourth input of the timer, control power input module humidity sensors connected to the power supply output. 9. The multifunctional intercom system according to claim 2, characterized in that control over the service premises is introduced - attics and / or basements, subscriber units are introduced into the intercom system, and the key device is additionally introduced, moreover, in the subscriber unit the output of the key device is connected to parallel the cathode of the protective diode and the first input of the backup power source, the output of the timer and the anode of the LED, the output of the power supply is connected to the corresponding input of the key device. 10. The multifunctional intercom system according to claim 9, characterized in that an electronic recorder and a camera are introduced, the camera output being connected to the first input of the electronic recorder, the second input of which is connected to the tenth output of the microcontroller, the output of the power supply is connected to the corresponding power input of the electronic recorder, output The electronic registrar is connected to the control room. 11. The multifunctional intercom according to claim 1, characterized in that in the subscriber unit the timer is made in the form of a microcontroller. 12. The multifunctional intercom system according to claim 1, characterized in that the transceiver is introduced via an alternating current network, the transceiver input via an alternating current network connected to the third output of the floor switch module, the output of the transceiver via an alternating current network connected to an alternating current network of 220V, 50Hz. 13. The multifunctional intercom according to claim 1, characterized in that the telephone line interface module is introduced, wherein the input of the telephone line interface module is connected to the fourth output of the floor switch module, the output of the telephone line interface module is connected to the telephone line. 14. The multifunctional intercom system according to claim 9, characterized in that in the subscriber unit, the key device is made in the form of a fingerprint reader. 15. The multifunctional intercom according to claim 1, characterized in that the photosensor is made in the form of a separate module isolated from the control panel, with phantom power via an information wire. 16. The multi-function intercom system according to claim 1, characterized in that an interface module with an intelligent building control system is introduced, wherein the input of an interface module with an intelligent building control system is connected to the fifth output of the floor switch module, and the output is connected to the input of the intelligent building control system. 17. The multifunctional intercom according to claim 1, characterized in that the backup power source of the subscriber unit is made in the form of an ionistor.

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